Selective indexing systems



Jan. 2, 1940. R. STU-ART 2,185,233

SELECTIVE INDEXING SYSTEMS Filed July 24, 1936 4 Sheefcs-Sheet 1 INVENTOR.

Jan. 2, 1940. R. STUART SELECTIVE INDEXING SYSTEMS Filed July 24, 1936 4 Sheets-Sheet 2 INVENTORY WWW/4W A RNEY.

Jan. 2, 1940. R STUART 2,185,233

' I SELECTIVE INDEXING SYSTEMS Filed July24, 1936 4 Sheets-Sheet 5 ATTORNEY.

Jan. 2, 1940. STUART 2,185,233

SELECTIVE INDEXING SYSTEMS Filed July 24, 1936 4 Sheets-Sheet 4 -22 JOHN DOE J- c BROADWAY I 6 NEWVORK y Y 217 213% g 226' W B 2 Nafio/ial A ORNEY.

Patented Jan. 2, 1940 I UNITED STATES PATENT OFFICE SELECTIVE INDEXING SYSTEMS Robert Stuart, Forest Hills, Long Island, N. Y.

Application July 24, 1936, Serial No. 92,271

g 16 Claims. (01. 88-24)v This invention relates to indexing systems and Fi 9 shows another form of card and arto means for selectively transferring the subject rangement of scan t Same, and of the index for commercial use and making the is a c cu d g am t ay he used index readily available. An object of the invento obtain selective results from the cards shown 5 tion is to provide the index cards with characin g- 5 teristic markings whereby they may be selec- In y il-P pp .Serial tively used. A further object of the invention fi ober 1935, which as m is to transfer the subject of a motion picture tured into Patent Number 2,081,137 issued May film photographicallyto sheets of paper stock; 3 I have shown means for transferring 10 another object of the invention is to selectively the Subject of a Stack index Ca d to a motion 10 transfer the subjects of the motion picture film p ur fi a Printing wheel for prin the by markings on the film itself. The invention su j t f th film ph s ap a ly. n env lfurther includes means for transferring the subp s or pap s ets and a so a p p f di ject of a stack of marked index cards to a mo-- mechanism the P i wheel- I the P 1 markings of the cards, and to transfer the sub- Of this e l-P app i ation, I p v means jects of each frame of the motion picture film for selectively transferring the subject of the card photographically to sheets of paper stock and index to the film and further means for selecselectively controlled by markings on t tively transferring the subject of each frame of Another object of the invention is to provide the mm o the envelope or other document as 20 means f utilizing a card index System 561%; required. In each case the selection is obtained tively controlled by photo-electric cells. Other by use of photo'electnc cells responsive to objects of the invention will be more particumarkmgs on the Paras on t larly understood from the following specifica- The levention 1S descnbed m mm tion and the accompanying drawings, in which a card d x System arranged for mailing pur- 25 Fig. 1 is a diagram of the apparatus, partly pqses but adar.ted.for any of the sectioned, showing the index card and the argggigg g g ggfi ig gfig t gff ifg gaggeifizniathe photo-electric cells for scan- 1351318 to selecil;y cards addressleg to mine onlly, f"(3111' 0 women on or again, ca s may se ee 80 $23.12.: zez tt izasiiratz23: 2:-

or he to a selective system in which there is a master g iir i m Fig- 1 for selectlvely operatmg t group divided into one or more sub-groups and u rou ma 2. ain be further divid Fig. 1a 1s an end view of an index card showthese 5 b g W Y 8 ed s th t the s stem must be ca able of bein set ing the method of attaching the tabs for giving 0 a y g 85 up for a variety of selections. the characteristic markings to the card; I This is secured by providing the marginof the Fig. 3 is a diagrammatic drawing, partly secindex card with a series of removable tabs 10- tloned ShOWmg the motmn 910mm camera cated on the card with relation to a particular 4 p h the stack of in e and the characteristic. In a simple form the card may 0 automatic control th reof; be. white with a surface that reflects light and Fig. 4 1s a view of a printing wheel for phot t may be m k ith surface th t b- -tographmally printing paper sheets or envelopes sorbs light. Th ard is suitably illuminated from a motion picture film which is selectively d the portion of the card where the tab is, is

eohtrelled y markings 011 the the drawing scanned by a photo-electric cell. This cell may be ge y (ilagrammetie; be constructed to establish a circuit when light Flg. 5 1s a side elevation of the mechanism in falls t or it may b t t d t t Fig. 4 with the cover sectioned and parts broken rupt a, circuit under the same conditions. In way o showthe constructlon; the former case it is apparent that when the so F s. 6 5a 'eul i m of theeleetrical margin tab is absent the light reflected'from 5o tr0l used in Fla. the card will influence the cell toestablish the IS a p V Of a portion of motion controlling circuit and, on the other hand, when picture film of the card index shown in Fig. 3; a. card is scanned which has a tab that does not F a. 8 1 a mnle form-of a two color card for reflect light, the circuit through the photo cell indexing purposes; j cannot be established. I

tion picture film, selectively controlled by the ent nvention, which is a continuation in part ll A double row of tabs may be provided on the card so that a number of photo-electric cells are scanning the card at the same time and by suitably arranging the circuit controlled by these cells an extensive selective system is secured. The photo-electric cell is made in different degrees of sensitivity so that one cell may be responsive to a less intense light than another cell and advantage is taken of this fact by providing tabs having different degrees of light reflecting qualities so that the system may be made selective by changing the type of photo-electric cells used.

The index is first prepared on cards in the usual manner and these cards are provided with tabs according to the information that is desired in the index. The tabs may be stamped on the card or may be made removable so that the card can easily be changed. A stack of. these cards is placed in a container, face down, the container having an aperture in the bottom in register with the lens of a motion picture camera. A motor operated mechanism, through a cam action, removes the cards one at a time and leaves an interval for photographing each card on the frame of the film. The camera through a clutch mechanism is operated by the motor in synchronism with the card removing mechanism and the clutch is controlled by the photo-electric cells so that when a card is not to be transferred to the film the camera is de-clutched from the mechanism and remains inactive; in this way a particular group or sub-group of cards are transferred to the frames of the film, in a continuous row.

When used for addressing envelopes or similar work, an enlargement of the film frames is printed by means of the printing wheel upon the sensitized face of the envelope as the wheel r0- tates. In practice, it may arise that a further selection is required between the film and the envelopes so that particular frames of the film will not be used. For this purpose a paper feeding mechanism is provided for feeding the envelopes, one at a time, to the printing wheel and this feeding mechanism is controlled by a clutch which is, in turn, controlled by photo-electric cells scanning the markings on each frame of the fllm as these markings are enlarged through a projecting apparatus. The apparatus is so arranged that When the subject of a frame is not required the paper feeding mechanism omits the corresponding paper that would have been printed by this frame while the continuous film is fed forward one frame at a time, but transference is made only of the particular frames of the film desired. The film is thus continuously operated while the paper feed operates selectively.

In. the drawings II is the index card with the address or information indicated at I2 and having the marking tabs a, b, c, d and e at the top of the card and the marking tabs 2, g. h, t, k at the bottom of the card. The tabs may be applied to the card in any suitable manner but are preferably clamped to the cards as indicated in Fig. la at b and h so that they can readily be removed orchanged. The card is illuminated by one or more lamps l3, provided with reflectors l4 and it is removed from the stack by the slide I5 which moves the card onto the roller l6.

A frame is provided along the upper edge of the card having apertures 3| registering with each of the tabs a, b, c, d, and e, and in each frame one of the photo cells 2|, 22, 23, 24 and is located, with a lens 82 monted'in each tubular frame for focusing the reflected light from the tab upon each of the photo cells as indicated by the light spread 33. Cell 24 is arranged to be illuminated from tab d and also from tab e through the aperture 35 which is provided with the lens 34 and the aperture is provided with a gate 35 whereby it may be closed when not required.

The construction at the lower edge of the card corresponds with that described at the upper edge in which light reflected from the tabs f, g, h, 7' and k is focused respectively upon the photo cells 26, 21, 28, 29 and 30. In this arrangement the cell 21 is illuminated from tab 9 and also from tab I through lens 31 and cell 28 is illuminated from tab h and also from tab g through lens 38 which may be shut off by the gate 39. This arrangement is merely illustrative of an adaption of the system of selection which admits of a variety of applications.

In this arrangement it will be noted that tab a reflects the full value of the light upon the cell 2! and may be arranged to cause this cell to establish a circuit. Tab 1) is black and fails to illuminate the cell 22 sufliciently to establish a circuit. Tab 0 illuminates cell 23 to establish a circuit, tab 11 is black and fails to influence cell 24 for operating conditions, but tab'e operatively influences cell 24 through apertures 35 when gate 36 is open and tab e also operatively influences cell 25.

In the lower row tab 1 is partly black and partly white so that it has a limited light reflecting value which will not operatively influence the cell 26 unless this cell is sufliciently sensitive to operate under the restricted light conditions. Cell 21 is operatively influenced from tab 9 and it is also influenced from tab 1 through lens 31. In this case it is apparent that if cell 21 is not sensitive enough to be influenced by tab I alone it will not be influenced by another card in which the tab 0 is black and the tab f is black and white. If cell 21 is to be influenced in the latter case the more sensitive cell must be used. Cell 28 is influenced by tab y when the gate 39 is open and it may, or may not, be sufficiently sensitive to respond to the black and white tab h according to the conditions desired. Cell 29 is uninfluenced by the black tab and cell 30 is influenced by tab k.

It is apparent that when the next card is exposed for scanning by the light cells that they will be influenced in accordance with the prearranged markings of the card and will effect the control of the system in accordance therewith.

One circuit arrangement that may be used in applying the light cells in Fig. 1 is shown in Fig. 2. Energy from B is controlled from switch 42 through wire 43 to cell 23 and through wire 44 to switch 6| and wire 50 through cells 24 and 25 in multiple to wire 59, switch 58, wire 51, switch 56, wire 65, cell 26, wire 66, cell 2'1, wire 61, switch 68, wire 69, cell 28, wire H, switch I2, wire 10 to the inductive coupling 18 for the amplifying tube 19 to wire 80 and control 'relay 54, the return circuit being completed on wire 55. This provides a series multiple control group through the photo cells. If switch 6| is open and 45 is closed, the circuit is continued from wire 44, through switch 45, cell 22, wire 46, wire 41, cell 25, wire 48, inductive coupling 50' to wire 5| of amplifying tube 52 and wires 53, 64 and 80 to the control relay 54.

In the latter arrangement it will be noted that the controlling relay 54 is controlled by cells 2|, 22 and 23 only, that is, by the tab a, b and c and if switch 41 is closed, cell 2I is cut out. If switch 58 is reversed the control is then limited to cells 23, 24 and 25 corresponding to tabs 0, d and e, the tab being the master tab and d and e being subject to the control by c and being alternative to each other. When switch 58 is reversed the circuit is completed through the inductive coupling 62 to the amplifying tube 83 and by wires 64 and 88 to the, control relay 54.

When switch 58 is reversed, switch 42 is open, the selective control is limited to the lower row of photo cells and by reversing switch 68 may be restricted to -the controlby tabs 1 and g, by leavingswitch 68 as shown and I2 as shown the control is limited to tabs f, g and h; by re- 'versing switch I2 and I5 the control is limited to f, g, h and 7' and by reversing switch I2 from the position shown and leaving 68 and 15 as indicated the control includes tabs j, g, h, a and k in series. In the latter case it is apparent that any card that does not effectively energize all the light cells will not energize the control relay 54, and as hereinafter described, such card will be discarded without being photographed.

The cards II are stacked at in the container 82, Fig. 3, which has a bottom 88, having an aperture in the field of vision of the lens 85 of the motion picture camera 84, thus each bottom card of the stack is in position to be photographed on a frame of the film as the mechanism is operated.

The mechanism is operated by the motor 81 connected with the electric supply II8, through a worm reduction gear 88, driving the main shaft 89, connected by the gears 98 and 9| with the cam 92 which engages the roller 94 of the lever 95, pivoted at 98 and opposed by the spring 91. This lever connects at 98 with the slide I5 so that when the depression 93 of cam 92 registers with roller 94, the spring 91 moves the bottom card II -to the left into engagement with the discharge rollers I6, Mia. The bevel gear 99 mounted on the main shaft 89, through gear I88 drives shaft I8I which by the bevel gears I82 and I83 rotates the discharge roller I6. The gear 99 also rotates gear I84 connected by clutch I85 and clutch member I81 with shaft I21, which, through gears I28 and'I29 operates the motion picture camera mechanism in synchronism with shaft 89. The motion picture camera is of the usual commercial type with an intermittent motion for feeding. forward the film and with a shutter for exposing the film at the proper time and which is not shown in the drawings.

The continuous running of motor 81 will disa charge the cards II from the stack 83, one at a time, but the camera mechanism is operated only when the clutch members I85, I81, are engaged. The clutch is controlled by the control magnet III through armature I86, pivctedat I88 and engaging the clutch member I85 at its outer end. When magnet III is energized the clutch is engaged and when it is deenergized spring I89 disengages the clutch.

The apparatus in Fig. 3 is controlled by relay 54, Fig. 2, from energy on wire B through contacts I I2, bridged by member II3, wire II4, contact II5 of relay 54, wire II8, relay II! and wire II8 to the return circuit. When relay 54 is energized and the cam 92 is in the normal position shown relay Ill-is energized and establishes a holding circuit for itself through contact II8,

wire I28, contact fingers I2I to wire 3. The con;-

tact fingers I 2| are bridged .by the ring conductor I 22 as the cam 92 rotates so that the gap I23 in this ring is moved away from the contact fingers I2I by the initial movement of cam 92. When relay I I1 is energized the circuit is closed from wire B through contact I24 and wire I25 to the clutch control magnet III and return circuit on wire I28. It will be observed that the stick relay II'I cannot be energized unless the cam 92' is in .the normal position and once it has been energized its circuit is maintained by the ring conductor I22 until the cam has made a complete revolution and disconnected the fingers I2I by the gap I23. It will thus be noted that the clutch .members I85 and I8! cannot be engaged unless the cam 92 is in the normal position and the controlling relay 54 is energized. When these conditions occur the clutch is operated to operate the camera for one frame of the film and to open the shutter after the card is properly positioned for photographing. The relay II'I cannot be energized after the cam 92 has made its initial movement so that if the control relay 54 is not energized, the mechanism. operates to discharge the lower card from the stack 83 without operating the camera, and it will continue to discharge the cards from the stack until the selective system energizes relay 54 to secure the photographic record desired.

Fig. '1 indicates a strip of film made from cards corresponding to that shown in Fig. 1 in which the frames I3I of the film I38 has photographed thereon at the top and bottom the markings of the tabs I32'and I33. When the selective system is applied in an elementary form a color scheme may be used on the cards instead of the tabs, such as indicated in Fig. 8 in which the card II has one half marked R colored in red. and the other half marked B colored blue and with a pair of photo cells responsive tothese color values so that cards of any particular color could be selected from the stack by the system described.

The photographic transfers from the film to the paper stock is shown in Figs. 4 and 5 in which the motor I35, throu lmthe shaft 3 nd the worm reduction I31 drives the shaft I38 of the film drum I48 and the printing drum I42 enclosed by the housing I39. I44 and I45. The centre of the film drum I48 is rovided with one or more lights I48 which project the pictures on the frames of the film I through the prism I41 as indicated at I48. Fig. 5. upon the prism I49, Fig. 4, and through lens I58 to the apertures I 43 in the drum I42 where an enlargement of the picture appears. The drum I42 is provided with radially spaced li htproof partitions I5I separa ing each of the windows I 43 and isolating each frame of the film asthe wheel rotates. This anparatus is fully described in my co-pendinrz app icat on above referred to. Shield I52 isnrnvided in the interior of drum' I 48 to shut off the light on that portion of the mechanism where taken off on a tangent at I51, over the rollers I56 and back to the wheel at I59. Opposite the portion I59 9. feed belt I60, mounted on rollers I6I is provided and passes below the tray I6l, carrying the envelopes I56, which are fed by the rotating blade I62 between the belt I60 and I59. Belt I60 is arranged to rotate with belt I59 and carry the paper stock forward to be clamped against the printing wheel. 7

The blade I62 is rotated by the gears I63 and I64, mounted on shaft I65 upon which the clutch member I66 is also mounted. This clutch memher is engaged by the clutch member I61, controlled by the armature I66 of the magnet I69 and rotating with the shaft I10 driven by gears HI and I12 from the motor shaft I36. When the magnet I69 is energized the shafts I65 and I10 rotate together and when this magnet is deenergized shaft I65 remains stationery and the paper feeding mechanism fails to operate. The envelopes I56 after passing around the printing wheel are thrown off by the paper guide I15 into the tray I16. 7

Motion picture film is supplied to the drum I40 from the reel I8I, the film is indicated at I82, it passes through the projector I83 which is driven by the gears I66 and I89 from the shaft -I10 with the usual intermittent motion. The film is looped at I86, and passes over the rollers I81 where it engages the drum I40. The light I84, through lens I85 and the individual focusing lens I90, Fig. 5, projects light through the portion of the film where the tabs of the cards are photographed and projects an enlargement upon the photo cells I9I, I92, I93, I94 and I95. This again provides a selective control by photo-electric cells for printing the subjects of the film on the envelopes. An arrangement of electric circuits corresponding to Fig. 2 may be introduced into the system at this time for controlling the printing mechanism insofar as this may be desired or necessary. The film passes off the drum, around: the roller I91 and is wound on the take-up reel I98. The loop of the film at I66 is made of such length that the frame projected by I83 corresponds with the next envelope to be fed by I62 as the film and the envelope approach the printing position. If the selective system omits a frame the photo cells fail to energize magnet I69 and the paper feed omits the envelope for that particular frame.

The circuit for operating the paper feed mechanism in Fig. 4, selectively, is shown in Fig. 6 and is so arranged that it either fails to operate or makes one complete cycle of operation for each frame of the film. The stick relay 203 is energized through cell I9I, wire I, cell I92, and wire 202 to relay 203 and return circuit 204. When relay 203 is energized, a circuit is established at 206, through wire 201 to clutch magnet I69. Relay'203 is a stick relay establishing its own circuit when energized through contact 205, wire 205a, to contact I13, controlled by cam I14 and shaft I65. In the normal position of cam I14, contact I13 is open but after the cam makes an initial movement this contact is closed and relay 203 is thereby maintained energized until the cam makes a complete revolution corresponding to one cycle of operation of the mechanism. It will thus be noted that the photo cells I9I--I95 establish the circuit of relay 203 and energize magnet I69 until cam I14 makes its initial movement and thereafter relay 203 is controlled by cam I14. In Fig. 6,0nly two of the photo cells controlled and for this purpose the band I55 is are shown and the usual amplifying apparatus is not shown in the circuit.

Another form of card is indicated in Fig. 9, in which the characteristic markings are provided at the ends of the card instead of at the sides. The photo cells 2Ia, 22a and 2301. are enclosed by suitable tubes indicated at tile and are arranged to focus on the markings a, c and e at one end of the card and the photo cells 26a, 21a and 26a are enclosed in suitable tubes 3Ia at the opposite end of the card and register with the markings f, h and k.

A circuit for this arrangement is indicated in Fig. 10 in which the cell 2 la may represent rating, 22a may represent women, 23a may represent local, 21a may represent men and 28a may be national." The cell 2Ia, through wire 2 energizes relay 2I2; cell 22a, through wire 2I3 energizes relay 2I4; cell 23a, through wire 2I5 energizes relay 2I6; cell 26a, through wire 2I1 energizes relay 2I8; cell 21a, through wire 2I9 energizes relay 220 and cell 26a, through wire 22I energizes relay 222.

When the relays are energized as shown the control relay 54 is energized from wire B through contact 225, wire 226, contact 221, switch 228, wire 229, contact 230, wire 23I, contact 232, wire 233, contact 234, wire 235, contact 236 and wire 231 to relay 54. When switch 239 is closed the control by 22a is cut out, when switch 240 is closed the control by 21a is cut out and when switch 238a is closed the control by 28a is cut out. When switch 228 connects with wire 24I the control is obtained through relay 2I8 in the deenergized position instead of the energized position and when switch 228 connects to 242, the controls by 2Ia and 26a are eliminated and the other controls are subject to switch 226.

The invention may be applied complete as shown, or it may be used in any of its component parts, either with the system shown or with other systems and such application and the full equivalents thereof are contemplated herein.

Having thus described my invention, I claim: 1. An indexing system and means for transferring the subject of the index comprising a motion picture film having the subject on the frames of the film and having distinctive marks on each frame, a wheel for projecting the subject of each frame, a conveyor for conveying stock to which the index is to be transferred in separate sheets for each frame and upon which the subject is projected in said wheel, a drive 2. An indexing system and means for transferring the subject of the index comprising a motion picture film having the indexed subjects on the frames of the film and having distinctive marks on each frame, a wheel for projecting the subject of each frame, a conveyor for conveying stock in separate sheets to which the index is to be transferred to receive the projected subject on said wheel, a drive mechanism for feeding the film and moving the conveyor, means for feeding the sheets to the conveyor, a plurality of photo-electric cells controlling said sheet feeding means and means controlling said photo-electric cells by a plurality of distinctive marks on said frame.

3. An indexing system and means for transferring the subject of the index comprising a motion picture film having the index subjects on the frames of the film and having distinctive marks on each frame, a wheel for projecting the subject of each frame, a conveyor for conveying stock in separate sheets to which the index is to be transferred to receive the projected subject, a drive mechanism for feeding the film and moving the conveyor, means for feeding the sheets to the conveyor, a plurality of photo-electric cells selectively influenced by the distinctive marks on said frames, a magnet having an operating circuit controlling said sheet feeding mechanism, said circuit being controlled by said cells.

4. An indexing system and means for transferring the subject of the index to envelopes for addressing the same, comprising a motion picture film having the index subjects on the frames of the film, a wheel for projecting the subject of each frame, conveyor for moving each envelope into the field of the projected subject to print the subject on the envelope, a drive mechanism for feeding the film and moving the conveyor, a feeding mechanism for feeding the envelopes to the conveyor and means for selectively controlling said feeding means to supply envelopes only for selected frames of the index.

5. An indexing system and means for transferring the subject of the index to envelopes for addressing the same, comprising a motion picture filmhaving the index subjects on the frames of the film, means for projecting the subject of each frame, a rotating wheel for moving the envelope in the field of the projected subject to print the subject on the envelope, a-feeding mechanism for feeding the envelopes to said wheel in position to be printed by the subject of the frames of the film and means for automatically controlling said feeding mechanism to omit an envelope for any particular frame.

6. A system for addressing envelopes, provided with a photo emulsion, comprising a printing wheel having a drum for receiving a motion picture film, and a larger drum for receiving envelopes, means optically connecting the film with the envelopes so as to print the subject of the frames of the film upon the envelopes, an endless belt surrounding the larger drum and means for feeding the envelopes to said belt in synchronism with the movement of the film.

7. A system for addressing envelopes selective ly from a motion picture film photographically comprising a drum for the film and a. drum for the envelopes, means optically printing the subject of the frames of the film upon the envelopes, an endless belt surrounding the drum for the envelopes to hold the envelopes in place, one por-- tion of said belt extending in a tangent from said drum, means for feeding the envelopes to the tangent portion of the belt in synchronism with the movement of the film and meansoperated by the film selectively controlling said feeding means. I

8. A system for addressing envelopes selectively from a motion picture film photographically having pre-arranged markings thereon, a photoelectric cell arranged to be operated by the markings on said film, a' drum for receiving the film and a second drum for receiving the envelopes, a conveyor for feeding the envelopes to the drum in synchronism with the movement of the film, means for projecting the subject of the film frames including said markings, a photo-electric cell arranged to be operated by the markings on the film, a feeding mechanism for feeding envelopes to said conveyor and means controlling said feeding mechanism by said photo-electric cell.

9. An indexing system and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film havnism with the operating mechanism and a plu-- rality of independent means operated simultaneously by the indexing marks on the film for con- Y trolling said clutch.

10. An indexingsystem and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film and having predetermined, marks on each frame,

means for projecting the index subjects on the film, a conveyor for moving the sheets into the field of the projected subjects to print the subjects on the sheets, a mechanism for co-operatively operating the film and the conveyor, a feeding mechanism for feeding the paper sheets 50 the conveyor, a circuit including a plurality of independent photoelectric cells controlling said feeding mechanism and means projecting light through the marked portions of the frames for operating said photo-electric cells.

11. An indexing system and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film and havingpredetermined opaque spots on each frame, means for projecting the index subject of each frame, a conveyor for moving the paper sheets into the field of the projected subjects to print the subjects on the sheets, a feeding mechanism for feeding the paper sheets to the conveyor one sheet for each frame of the film, a circuit including a plurality of photo-electric cells independently controlling said feeding mechanism, means for moving the film and a light beam projected through said film upon said photo-electric cells and controlled by the opaque spots of the film.

12. An indexing system and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film and having opaque spots on each frame arranged with reference to the subject of the index, means for projecting the index subject, a conveyor for moving the paper sheets into the field of the projected subject to print the subject on the sheets, a feeding mechanism for feeding the paper sheets to the conveyor, one sheet for each frame of the film, a plurality of independent photo-electric cells controlled by said opaque spots for influencing said photo-electric cells and a circuit controlled by said photo-electric cells controlling said feeding mechanism for selectively controlling the operation of said paper feeding mechamsm. l

13. An indexing system and means-for, transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film and having two rows of predetermined marks '5 on each frame, means for projecting the indexed subject, a conveyor for moving the paper sheets into the field of the projected subject to print the subject on the sheet, a feeding mechanism for feeding the paper sheets to the conveyor one sheet for each frame of the film, a drive mechanism for feeding the film and moving the conveyor and independent means controlled by each sheet to the conveyor for each frame of the film,

a drive mechanism for co-operatively feeding the film and moving the conveyor and independent photo cells simultaneously controlled each by one of the marks on the frame for selectively controlling said paper feeding mechanism to control the delivery of a paper sheet to the conveyor upon which the subject of the frame is to be printed.

15. An indexing system and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film, a printing wheel for projecting the index subjects as, it rotates, a conveyor for moving the sheets into the field of the projected subjects on said wheel to print the subjects on the sheets, a mechanism for co-operatively operating the film, the conveyor and the printing wheel, a stack of paper sheets, and a feeding mechanism operating in synchronism with said film and said conveyor for feeding paper sheets one at a time from said stack to said conveyor and said printing wheel to register with the projected subjects.

16. An indexing system and means for transferring the subject of the index to separate sheets of paper, comprising a motion picture film having the index subjects on the frames of the film, a printing wheel for projecting the index subjects, a conveyor belt having a portion of the belt tangent to the printing wheel, a feeding mechanism for feeding paper sheets one at a time to said tangent portion whereby they are conveyed to the field of the projected subjects on said wheel to print the subjects on the sheets and a drive mechanism for co-operatively operating the conveyor belt, the feed mechanism, the film and the printing wheel.

ROBERT STUART. 

